/////////////////////////////////////////////////////////////////////
////                                                             ////
////  Author: Eyal Hochberg                                      ////
////          eyal@provartec.com                                 ////
////                                                             ////
////  Downloaded from: http://www.opencores.org                  ////
/////////////////////////////////////////////////////////////////////
////                                                             ////
//// Copyright (C) 2010 Provartec LTD                            ////
//// www.provartec.com                                           ////
//// info@provartec.com                                          ////
////                                                             ////
//// This source file may be used and distributed without        ////
//// restriction provided that this copyright statement is not   ////
//// removed from the file and that any derivative work contains ////
//// the original copyright notice and the associated disclaimer.////
////                                                             ////
//// This source file is free software; you can redistribute it  ////
//// and/or modify it under the terms of the GNU Lesser General  ////
//// Public License as published by the Free Software Foundation.////
////                                                             ////
//// This source is distributed in the hope that it will be      ////
//// useful, but WITHOUT ANY WARRANTY; without even the implied  ////
//// warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR     ////
//// PURPOSE.  See the GNU Lesser General Public License for more////
//// details. http://www.gnu.org/licenses/lgpl.html              ////
////                                                             ////
/////////////////////////////////////////////////////////////////////
//---------------------------------------------------------
//-- File generated by RobustVerilog parser
//-- Version: 1.0
//-- Invoked Fri Mar 25 23:36:53 2011
//--
//-- Source file: dma_dual_core.v
//---------------------------------------------------------



module dma_axi64_dual_core(clk,reset,scan_en,idle,INT,periph_tx_req,periph_tx_clr,periph_rx_req,periph_rx_clr,pclken,psel,penable,paddr,pwrite,pwdata,prdata,pslverr,pready,rd_port_num0,wr_port_num0,rd_port_num1,wr_port_num1,M0_AWID,M0_AWADDR,M0_AWLEN,M0_AWSIZE,M0_AWVALID,M0_AWREADY,M0_WID,M0_WDATA,M0_WSTRB,M0_WLAST,M0_WVALID,M0_WREADY,M0_BID,M0_BRESP,M0_BVALID,M0_BREADY,M0_ARID,M0_ARADDR,M0_ARLEN,M0_ARSIZE,M0_ARVALID,M0_ARREADY,M0_RID,M0_RDATA,M0_RRESP,M0_RLAST,M0_RVALID,M0_RREADY);
      
   input                   clk;
   input                   reset;
   input                   scan_en;

   output                   idle;
   output [1-1:0]                  INT;
   
   input [31:1]               periph_tx_req;
   output [31:1]               periph_tx_clr;
   input [31:1]               periph_rx_req;
   output [31:1]               periph_rx_clr;
   
   input                                  pclken;
   input                                  psel;
   input                                  penable;
   input [12:0]                           paddr;
   input                                  pwrite;
   input [31:0]                           pwdata;
   output [31:0]                          prdata;
   output                                 pslverr;
   output                                 pready;

   output                   rd_port_num0;
   output                   wr_port_num0;
   output                   rd_port_num1;
   output                   wr_port_num1;
   
   output [`ID_BITS-1:0]                  M0_AWID;
   output [32-1:0]           M0_AWADDR;
   output [`LEN_BITS-1:0]                 M0_AWLEN;
   output [`SIZE_BITS-1:0]         M0_AWSIZE;
   output                                 M0_AWVALID;
   input                                  M0_AWREADY;
   output [`ID_BITS-1:0]                  M0_WID;
   output [64-1:0]           M0_WDATA;
   output [64/8-1:0]         M0_WSTRB;
   output                                 M0_WLAST;
   output                                 M0_WVALID;
   input                                  M0_WREADY;
   input [`ID_BITS-1:0]                   M0_BID;
   input [1:0]                            M0_BRESP;
   input                                  M0_BVALID;
   output                                 M0_BREADY;
   output [`ID_BITS-1:0]                  M0_ARID;
   output [32-1:0]           M0_ARADDR;
   output [`LEN_BITS-1:0]                 M0_ARLEN;
   output [`SIZE_BITS-1:0]         M0_ARSIZE;
   output                                 M0_ARVALID;
   input                                  M0_ARREADY;
   input [`ID_BITS-1:0]                   M0_RID;
   input [64-1:0]            M0_RDATA;
   input [1:0]                            M0_RRESP;
   input                                  M0_RLAST;
   input                                  M0_RVALID;
   output                                 M0_RREADY;
   
   

   wire                   psel0;
   wire [31:0]                   prdata0;
   wire                   pslverr0;
   
   wire                   psel1;
   wire [31:0]                   prdata1;
   wire                   pslverr1;

   wire                   psel_reg;
   wire [31:0]                   prdata_reg;
   wire                   pslverr_reg;

   wire [8*1-1:0]                  ch_int_all_proc0;
   
   //outputs of dma_axi64 reg
   wire [1-1:0]                    int_all_proc;
   wire [3:0]                   core0_clkdiv;
   wire [7:0]                   core0_ch_start;
   wire                   joint_mode0;
   wire                   joint_remote0;
   wire                    rd_prio_top0;
   wire                    rd_prio_high0;
   wire [2:0]                   rd_prio_top_num0;
   wire [2:0]                   rd_prio_high_num0;
   wire                    wr_prio_top0;
   wire                    wr_prio_high0;
   wire [2:0]                   wr_prio_top_num0;
   wire [2:0]                   wr_prio_high_num0;
   wire [31:1]                   periph_rx_req_reg;
   wire [31:1]                   periph_tx_req_reg;
   
   wire [31:1]                   periph_rx_req0;
   wire [31:1]                   periph_tx_req0;
   wire [31:1]                   periph_rx_req1;
   wire [31:1]                   periph_tx_req1;
   wire [31:1]                   periph_rx_clr0;
   wire [31:1]                   periph_tx_clr0;
   wire [31:1]                   periph_rx_clr1;
   wire [31:1]                   periph_tx_clr1;

   wire                   core0_idle;



   assign                   idle = core0_idle;
   
   assign                   INT = int_all_proc;
   

   assign                   periph_rx_req0     = periph_rx_req | periph_rx_req_reg;
   assign                   periph_tx_req0     = periph_tx_req | periph_tx_req_reg;
   assign                   periph_rx_req1     = periph_rx_req0;
   assign                   periph_tx_req1     = periph_tx_req0;
   
   assign                   periph_rx_clr      = periph_rx_clr0 | periph_rx_clr1;
   assign                   periph_tx_clr      = periph_tx_clr0 | periph_tx_clr1;
   

   assign                   joint_remote0 = joint_mode0 & 0 & 0;
   
   
   dma_axi64_apb_mux  dma_axi64_apb_mux (
                   .clk(clk),
                   .reset(reset),
                   .pclken(pclken),
                   .psel(psel),
                   .penable(penable),
                   .pwrite(pwrite),
                   .paddr(paddr[12:11]),
                   .prdata(prdata),
                   .pslverr(pslverr),
                   .pready(pready),
                   .psel0(psel0),
                   .prdata0(prdata0),
                   .pslverr0(pslverr0),
                   .psel1(psel1),
                   .prdata1(prdata1),
                   .pslverr1(pslverr1),
                   .psel_reg(psel_reg),
                   .prdata_reg(prdata_reg),
                   .pslverr_reg(pslverr_reg)
                   );

   
   dma_axi64_reg  dma_axi64_reg (
               .clk(clk),
               .reset(reset),
               .pclken(pclken),
               .psel(psel_reg),
               .penable(penable),
               .paddr(paddr[7:0]),
               .pwrite(pwrite),
               .pwdata(pwdata),
               .prdata(prdata_reg),
               .pslverr(pslverr_reg),
               .core0_idle(core0_idle),
               .ch_int_all_proc0(ch_int_all_proc0),
               .int_all_proc(int_all_proc),
               .core0_clkdiv(core0_clkdiv),
               .core0_ch_start(core0_ch_start),
               .joint_mode0(joint_mode0),
               .rd_prio_top0(rd_prio_top0),
               .rd_prio_high0(rd_prio_high0),
               .rd_prio_top_num0(rd_prio_top_num0),
               .rd_prio_high_num0(rd_prio_high_num0),
               .wr_prio_top0(wr_prio_top0),
               .wr_prio_high0(wr_prio_high0),
               .wr_prio_top_num0(wr_prio_top_num0),
               .wr_prio_high_num0(wr_prio_high_num0),
               .periph_rx_req_reg(periph_rx_req_reg),
               .periph_tx_req_reg(periph_tx_req_reg),
               .periph_rx_clr(periph_rx_clr),
               .periph_tx_clr(periph_tx_clr)
               );
   
   

   dma_axi64_core0_top
   dma_axi64_core0_top (
      
             .clk(clk),
             .reset(reset),
             .scan_en(scan_en),
             
             .idle(core0_idle),
             .ch_int_all_proc(ch_int_all_proc0),
             .ch_start(core0_ch_start),
             .clkdiv(core0_clkdiv),
      
             .periph_tx_req(periph_tx_req0),
             .periph_tx_clr(periph_tx_clr0),
             .periph_rx_req(periph_rx_req0),
             .periph_rx_clr(periph_rx_clr0),
      
             .pclken(pclken),
             .psel(psel0),
             .penable(penable),
             .paddr(paddr[10:0]),
             .pwrite(pwrite),
             .pwdata(pwdata),
             .prdata(prdata0),
             .pslverr(pslverr0),
      
             .rd_port_num(rd_port_num0),
             .wr_port_num(wr_port_num0),

             .joint_mode(joint_mode0),
             .joint_remote(joint_remote0),
             .rd_prio_top(rd_prio_top0),
             .rd_prio_high(rd_prio_high0),
             .rd_prio_top_num(rd_prio_top_num0),
             .rd_prio_high_num(rd_prio_high_num0),
             .wr_prio_top(wr_prio_top0),
             .wr_prio_high(wr_prio_high0),
             .wr_prio_top_num(wr_prio_top_num0),
             .wr_prio_high_num(wr_prio_high_num0),
             
                     .AWADDR(M0_AWADDR),
                     .AWLEN(M0_AWLEN),
                     .AWSIZE(M0_AWSIZE),
                     .AWVALID(M0_AWVALID),
                     .AWREADY(M0_AWREADY),
                     .WDATA(M0_WDATA),
                     .WSTRB(M0_WSTRB),
                     .WLAST(M0_WLAST),
                     .WVALID(M0_WVALID),
                     .WREADY(M0_WREADY),
                     .BRESP(M0_BRESP),
                     .BVALID(M0_BVALID),
                     .BREADY(M0_BREADY),
                     .ARADDR(M0_ARADDR),
                     .ARLEN(M0_ARLEN),
                     .ARSIZE(M0_ARSIZE),
                     .ARVALID(M0_ARVALID),
                     .ARREADY(M0_ARREADY),
                     .RDATA(M0_RDATA),
                     .RRESP(M0_RRESP),
                     .RLAST(M0_RLAST),
                     .RVALID(M0_RVALID),
                     .RREADY(M0_RREADY)
             );

   
   
 
   prgen_delay #(1) delay_pslverr1 (.clk(clk), .reset(reset), .din(psel1), .dout(pslverr1)); //return error
   assign                   prdata1          = {32{1'b0}};
   
   assign                   periph_rx_clr1   = {31{1'b0}};
   assign                   periph_tx_clr1   = {31{1'b0}};

   assign                   rd_port_num1     = 1'b0;
   assign                   wr_port_num1     = 1'b0;


endmodule




